Long-term effects of growth hormone (GH) replacement in men with childhood-onset GH deficiency.

Short term GH replacement therapy has been shown to improve body composition and exercise capacity. It is not yet known whether GH replacement remains beneficial over the long term. We assessed the effects of long term GH replacement on body composition, bone mineral density, and cardiac function. Thirty-eight men with childhood-onset GH deficiency were studied for a period of 3-5 yr. Measurements included anthropometry, computed tomographic scanning of abdomen and upper leg, bone densitometry, echo cardiography, and bicycle ergometry. The initial GH dose of 1-3 IU/m2 x day (9-27 microg/kg) was gradually tapered to 1.30+/-0.38 IU/m2 x day (11 g/kg), aiming at physiological insulin-like growth factor I levels. During the study, leg muscle mass progressively increased by 28.7% (P<0.001). Subcutaneous and intraabdominal fat decreased by 30.9% and 46.0%, respectively, after 1 yr (both P<0.001), but demonstrated a partial regain thereafter. Bone mineral density at the lumbar spine, femoral neck, and trochanter gradually increased by 9.6%, 11.1%, and 16.2%, respectively (all P<0.001). Left ventricular mass exceeded baseline values by 14.1% after 1 yr (P<0.001), but returned to pretreatment values thereafter. Stroke volume and cardiac output increased by 16.3% (P = 0.002) and 33.4% (P<0.001), respectively. Maximal work load increased from 189+/-30 to 232+/-41 watts (P<0.001). Thus, long term GH replacement is safe and beneficial. It improves cardiac performance without inducing left ventricular hypertrophy and progressively increases bone mineral density.

Monitoring of growth hormone replacement therapy in adults, based on measurement of serum markers.

The optimal dose for GH replacement therapy in GH-deficient (GHD) adults is not known, nor is there a consensus as to which method is the most appropriate for the monitoring of treatment. To establish a general guideline for GH replacement therapy in adults, we evaluated the relationship between the administered GH dose and the achieved serum levels of three GH-dependent serum markers. Serum levels of insulin-like growth factor I (IGF-I), IGF-binding protein-3 (IGFBP-3), and the acid-labile subunit (ALS) were measured in 46 GHD men participating in a 1-yr, double blind, and placebo-controlled dose-response study. The doses of recombinant human GH ranged from 0.33-3.0 IU/m(2)-day. During GH treatment, dose reduction was necessary because of side-effects in 18 of 46 patients, i.e. in 18% of the patients receiving a maintenance dose of 1 IU/M(2)-day, in 35% of the patients receiving a dose of 2 IU/m(2)-day, and in 67% of the patients receiving a dose of 3 IU/M(2)-day. In the untreated state, serum levels of all three markers were below the normal range in 90% of the patients. The rise in serum marker concentrations during the first month of treatment was dose dependent. Significant increases in IGF-I, IGFBP-3, and ALS levels were observed with a dose as low as 0.33 IU/M(2)-day. The minimal GH dose required for normalization of the serum IGF-I concentration was 0.66 IU/M(2)-day, and it was 1.0 IU/M(2)-day for ALS and IGFBP-3. In patients receiving 2.0 IU/M(2)-day, the mean serum IGF-I concentration rose to an abnormally high level, whereas at this dose, the mean IGFBP-3 and ALS levels were not different from normal. The lower sensitivity of IGFBP-3 and ALS to GH doses in the high range was also apparent during long term treatment. The number of patients who developed IGFBP-3 or ALS levels that exceeded the upper normal limit was substantially smaller than the number of patients with elevated IGF-I concentrations (2, 8, and 19 of 46 patients, respectively). In conclusion, serum IGF-I appears to be the preferred biochemical marker for the detection of GH excess in adults receiving GH replacement therapy, because it is more sensitive than IGFBP-3 and ALS to GH doses in the high range. If normalization of the serum IGF-I concentration is taken as the criterion for optimal GH replacement therapy, the predicted optimal GH dose for GHD men 20 - 40 yr old is 1.4 IU/M(2)-day, and the 95% confidence interval is 1.2-1.6 IU/M(2)-day.